Thermal and emission characteristics of reverse air flow CAN combustor

Rajpara, Parag; Dekhatawala, Ankit; Shah, Rupesh; Banerjee, Jyotirmay

doi:10.1016/j.ijthermalsci.2017.12.008

Cited by 16 publications

(1 citation statement)

References 22 publications

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“…erefore, the heat loss to the surrounding environment will increase, and the heat cannot be trapped in the combustor chamber. At the same time, as the increase of methane intake concentration will reduce the temperature in the combustor chamber, if the intake concentration is properly adjusted according to the real-time temperature feedback from the monitoring system, the heating time can be shortened [32][33][34].…”

Section: Temperature Rise Test Of Heat Storage Oxidationmentioning

confidence: 99%

Combustion of Low‐Concentration Gas in a Porous Media Burner: Reactor Design and Optimization

Chen

Wen

et al. 2021

Shock and Vibration

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In order to utilize the low-concentration gas directly discharged into the atmosphere from 1.1% to 1.50% in coal mine production, the heat storage and oxidation equipment of gas was improved, and the heat storage and safety of gas under high-temperature environment were tested. The experimental results show that the regenerative oxidation system could provide a high-temperature oxidation environment of 1000°C for gas oxidation after changing the heating mode and enhancing the sealing property. The pressure curves of air and gas in the burner were similar. With the increase of gas concentration, the pressure difference between inlet and outlet tended to increase linearly with a minimum pressure differential of 4 kPa (air) and a maximum pressure differential of 11 kPa (1.50% gas). The internal pressure was relatively stable without an instantaneous pressure surge or explosion. The result of this study provides a reference for further research on the low-concentration gas regeneration oxidation unit at high temperatures.

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Section: Temperature Rise Test Of Heat Storage Oxidationmentioning

confidence: 99%